The present invention relates to genetically engineered yeasts having a heterologous trehalase gene and fermentation processes for using such yeasts. The yeasts can express trehalase in a quantity sufficient to convert significant amounts of trehalose to glucose, thereby improving the yield of the product in a fermentation, and/or reducing or eliminating the need to add exogenous trehalase to the fermentation. The yeasts can also include other heterologous genes for expressing enzymes useful for improving yield and/or for reducing or eliminating the need to add exogenous enzymes to the fermentation.

New insecticidal proteins, nucleotides, peptides, and their expression in plants. Methods of producing new nucleotides and new peptides, new processes, new production techniques, new formulations, and new organisms. The present disclosure is also related to and describes novel peptides called TVPs, which are non-natural peptide variations based upon the U1-agatoxin-Ta1b toxin derived from the Hobo spider. Here, we describe: genes encoding TVPs; formulations and combinations comprising TVP genes and/or peptides; and methods using the same that are useful for the control of pests.

The present invention relates to genetically engineered yeasts having a heterologous trehalase gene and fermentation processes for using such yeasts. The yeasts can express trehalase in a quantity sufficient to convert significant amounts of trehalose to glucose, thereby improving the yield of the product in a fermentation, and/or reducing or eliminating the need to add exogenous trehalase to the fermentation. The yeasts can also include other heterologous genes for expressing enzymes useful for improving yield and/or for reducing or eliminating the need to add exogenous enzymes to the fermentation.

The present invention relates to genetically engineered yeasts having a heterologous trehalase gene and fermentation processes for using such yeasts. The yeasts can express trehalase in a quantity sufficient to convert significant amounts of trehalose to glucose, thereby improving the yield of the product in a fermentation, and/or reducing or eliminating the need to add exogenous trehalase to the fermentation. The yeasts can also include other heterologous genes for expressing enzymes useful for improving yield and/or for reducing or eliminating the need to add exogenous enzymes to the fermentation.

The present invention relates to genetically engineered yeasts having a heterologous trehalase gene and fermentation processes for using such yeasts. The yeasts can express trehalase in a quantity sufficient to convert significant amounts of trehalose to glucose, thereby improving the yield of the product in a fermentation, and/or reducing or eliminating the need to add exogenous trehalase to the fermentation. The yeasts can also include other heterologous genes for expressing enzymes useful for improving yield and/or for reducing or eliminating the need to add exogenous enzymes to the fermentation.

Provided herein are signal peptides that direct secretion of expressed payload proteins in yeast. Methods of using the signal peptides for therapeutic and non-therapeutic utilities are also provided. Compositions comprising yeast comprising the signal peptides and methods of using said yeast comprising the signal peptides for therapeutic and non-therapeutic utilities are also provided. Methods to design and generate the disclosed signal peptides are also provided.